setting setting the the standard Spring-applied brake BFK458 The versatile modular system 1.1 443 lb-ft German Design for North American requirements www.intorq.com/us
We set the standards The INTORQ brand stands for reliable brake solutions of the highest standard. Whether in electric vehicles, cranes, wind turbines or lift systems INTORQ products are used in the most diverse of applications. Rely on us to create the right solution for your drive individually and reliably. With its broad scope of different versions, the modular range of INTORQ products is used in many motors and geared motors and has set standards worldwide. With the establishment of facilities in Shanghai and Atlanta, we have also consistently expanded our international presence. So wherever you are in the world, our network of sales and service staff is always close at hand to support you. INTORQ at a glance Products: electromagnetic brakes and clutches Sales volume $ 60 million per year 800,000 units per year 86.000 square feet production area Development and production in Aerzen Companies in Shanghai and Atlanta 200 employees 63 sales partners in 49 countries Certified to DIN ISO 9001 and DIN ISO 14001 UL, CSA, RU available
INTORQ I BFK458 spring-applied brake BFK458 The modular system This modular system forms the basis for a product range that offers versions tailored for almost any task. The BFK458 spring-applied brake, as a standard product, can be used anywhere, but its modular structure also meets the requirements of specific industries. Its strength lies in its versatility. Electromagnetically released spring-applied brakes are used wherever masses in motion have to be decelerated as quickly as possible or where masses must be held in a defined position. The braking force is applied by tappet springs. Thus the braking torque generated by friction locking remains available in the deenergised status even in the event of mains failure. The brake is released electromagnetically. The main components of the modular system are the two basic modules E (adjustable braking torque) and N (non-adjustable braking torque). The greatest degree of flexibility is achieved for a broad range of applications by combining the basic modules with specific modules. This catalogue is designed to assist you in selecting and ordering your desired spring-applied brake quickly and easily. Fields of application Brake motors Conveyors Cranes Storage technology Industrial trucks Wood working machines Stage machinery Vehicles for the disabled Automation technology Controlled drives Gate drives Escalators Wind turbines Cranes Industrial trucks Stage machinery
4I5 INTORQ I BFK458 spring-applied brake INTORQ BFK458-òòò product key B F K 4 5 8 - òò ò Brakes product group Spring-applied brake product family Type Size Design Size 06, 08, 10, 12, 14, 16, 18, 20, 25 Not coded: Supply voltage, hub bore, options Stator design E Adjustable (braking torque can be reduced using torque adjustment ring) N Non-adjustable L Non-adjustable, LongLife design Friction plate Flange Connection flange (double brake) Stator, complete Basic module E Hand release Hub Cover ring Rotor Centring flange (tacho flange) Plug Shaft sealing ring Stator, complete Basic module N
Contents Product key... 4 List of abbreviations... 5 Product information... 6 Functional principle... 7 Technical data Rated torques... 8 Basic module E... 10 Basic module N... 12 2 x basic module N + connection flange... 14 Basic module N + tacho flange... 15 Rated data... 16 Operating times...16/17 Service life and wear... 18 Accessories Hand release/flange/friction plate... 19 Centring flange/connection flange/cover ring... 20 Brake cover... 21 Microswitch... 22 Terminal box... 23 Rectifier type code... 24 Spark suppressor 14.198.00... 24 Bridge rectifier + half-wave rectifier... 25 Fastening options... 29 Connection plans... 30 Supply voltage selection table... 31 Dimensioning Basics... 32 Example calculation... 33 Overview... 34 List of abbreviations P N [W] Rated coil power at rated voltage and 68 F U N [V DC] Rated coil voltage M K [lb-ft] Rated torque of the brake at a relative speed of 100 r/min n 0 [r/min] Initial relative speed of the brake Q [J] Heat/energy Q E [J] Maximum permissible friction work per switching cycle, thermal rating of the brake Q smax [J] maximum permissible friction work during cyclic switching, depending on the operating frequency S h [1/h] Operating frequency, the number of repeated operations per unit time S hmax [1/h] Maximum permissible operating frequency, depending on the friction work per operation S LN [in] Rated air gap S HL [in] Hand-release air gap, setting dimension of hand-release t 1 [s] Engagement time, the total of the reaction delay and torque rise time t 1 = t 11 + t 12 t 2 [s] Disengagement time, time from switching the stator until the torque has reduced to 0.1 M K t 3 [s] Slipping time to standstill (after t 11 ) t 11 [s] Delay time when connecting, time from disconnecting the voltage until the torque begins to rise t 12 [s] Rise time of braking torque, time from beginning of rise of torque until braking torque is reached
6I7 INTORQ I BFK458 spring-applied brake INTORQ 155-1 Product information E318895 A powerful and complete range 9 sizes Standard voltages [V DC] 24, 96, 103, 170, 180, 190, 205 Graduated torque range from 1.1 443 lb-ft Short delivery times for the complete range thanks to optimised logistics Enclosure according to IP00... IP55, depending on the special operating conditions, see technical data sheet ATEX: In accordance with Group II, Category 3G/D, the product is suitable for use in potentially explosive atmosphere of zone 2 (gases and vapours) and zone 22 (dust) for steady-state operation (holding or parking brake) and temperature class T4. Versatile Modular structure for virtually all applications Torque transmission Designed for dry running Quick and easy mounting Preset air gap Special machining of the friction surfaces ensures that the rated torques are achieved after very few switching operations No locating bearing is required on the brake Durable The insulation system to temperature class F (311 F) ensures that the winding has a long service life The brakes are designed for 100% duty time (current applied to the brake) Low maintenance Long rotor/hub connection with low rate of wear and a tried-and-tested involute gear Asbestos-free and solvent-free friction lining with low rate of wear Reliable The certified ISO 9001 and ISO 14001 quality assurance system provides the basis for consistently high-quality products Production and testing to VDE 0580 Options Hand release for all sizes, both directions can be used for release and mounting (exception: tacho brake) Noise-reduced designs Various types of corrosion protection and enclosures Microswitches used to monitor air gap and wear (size 12 and above) Monitoring of Hand release function Non-standard voltages and bores on request Pulse width modulation (PWM), sizes 06 18 Partial discharge free brake has been developed for operation with the pulse width modulated DC bus voltage of a frequency inverter Rated coil voltage U N =103V DC LongLife design BFK458-L Armature plate with low backlash and reinforced torque support Tappet springs with guide pins for protection against shearing forces Aluminium rotor with toothed intermediate ring: friction lining and tooth system with low rates of wear to - 40 F CCV (Cold Climate Version), temperatureresistant up to -40 F CCV design configurable for all sizes in the modular system - Use of chrome-plated friction surfaces (armature plate and flange) - Use of temperature-resistant fixing screws is essential The following components are also approved for use up to -40 F - Rotor with sleeve (noise-reduced) - Hand release - Terminal box - Microswitch - Caps E and N - Shaft sealing rings
Functional principle Basic module E Basic module N Adjustment tube Fixing screw Adjustment tube Fixing screw Rotor Stator Rotor Stator Hub Adjustment ring Hub Armature plate Tappet Armature plate Spring Spring INTORQ BFK458 spring-applied brakes are singledisk brakes with two friction surfaces. When deenergised, several springs are used to generate the braking torque through friction locking. The brake is released electromagnetically. During braking, the springs use the armature plate to press the rotor (which can be shifted axially on the hub) against the counter friction face. When the brakes are applied, an air gap s L is present between the armature plate and the stator. The stator's coil is energised with DC voltage in order to release the brake. The resulting magnetic flux works against the spring force to draw the armature plate to the stator. This releases the rotor from the spring force and allows it to rotate freely. Basic module E supports the use of the torque adjustment ring to reduce the braking torque. BFK458, redundant and noise-reduced BFK458, with terminal box BFK458-L, LongLife for high switching cycles
8I9 INTORQ I BFK458 spring-applied brake Technical data Rated torques The basic modules E and N are available in the graduated torques listed below. A pole shim (brass film) must be placed between the stator and the armature plate if you want to achieve short engagement times at low torques. INTORQ brakes are dimensioned so that the specified rated torques can usually be achieved reliably after a short running-in period. However, as the organic friction linings used do not all have identical properties and because environmental conditions can vary, deviations from the specified braking torques are possible. These must be taken into account in the form of appropriate dimensioning tolerances. Increased breakaway torque is common in particular after long downtimes in humid environments where temperatures vary. If the brake is being used on friction surfaces provided by the customer, the rated torque must be checked. If the brake is to be used solely as a holding brake without dynamic load, the friction lining must be reactivated at regular intervals. Size 06 08 10 12 14 16 18 20 25 59 E 1.1 E 2.6 N/E 18 N/E 26 N/E 48 N/E 85 N/E 129 N/E 1.5 N/E 2.9 E 5.2 N/E 10 N/E 26 N 33 N/E 59 N/E 107 N/E 162 N 1.8 N/E 3.7 N/E 6.7 N/E 13 N/E 30 N/E 41 N/E 74 N/E 125 N/E 195 N/E Rated torque M k [lb-ft] of the brake, rated value at a relative speed of 100 r/min 2.3 N/E 4.4 N/E 8.1 N/E 17 N/E 33 N/E 44 N/E 85 N/E 148 N/E 221 N/E 2.6 N/E 5.2 N/E 10 N/E 20 N/E 41 N/E 52 N/E 96 N/E 169 N/E 258 N/E 2.9 N/E 5.9 N/E 12 N/E 24 N/E 44 N/E 59 N/E 111 N/E 192 N/E 295 N/E 3.3 N/E 6.6 N/E 13 N/E 27 N/E 48 N/E 66 N/E 122 N/E 214 N/E 328 N/E 3.7 E 7.4 E 15 E 30 E 55 N/E 74 N/E 136 N/E 232 N/E 361 N/E 4.1 E 8.1 E 17 N/E 34 N/E 59 N/E 77 N/E 148 N/E 255 N/E 391 N/E 4.4 N/E 8.8 N/E 92 N/E 173 N/E 295 N/E 443 N/E N... Braking torque for the N design (without torque adjustment ring) E... Braking torque for the E design (with torque adjustment ring) L... LongLife design Operating brake (S Lmax approx. 2.5 x S LN ) Basic module L, LongLife design The LongLife design can be configured for sizes 06 to 12 in combination with the specified rated torques in the modular system. The stator corresponds to design N; bores and built-on accessories are not possible at the rear side. It is not possible to configure a microswitch for size 12. Standard braking torque Holding brake with emergency stop (S Lmax approx. 1.5 x S LN )
Basic module E, reduced rated torque The rated torque on basic module E can be reduced using the torque adjustment ring located in the stator. The torque adjustment ring may only be unscrewed to a maximum dimension of h 1max (see table on page 11). It should be noted that the engagement and disengagement times change in accordance with the rated torque. Torque reduction is independent of the rated torque used. Size 06 08 10 12 14 16 18 20 25 Torque reduction per detent position [lb-ft] 0.15 0.26 0.59 0.96 1.3 1.2 2.7 4.1 4.6 Noise-reduced designs The noise reduction required in many applications can be achieved in two ways: 1. Impact-noise-reduced armature plate The brake's operating noise can be minimised using special damping elements, which are installed between the pole face and the armature plate as shock absorbers. Features and advantages Low rate of wear between rotor and hub thanks to lower backlash Recommended for frequency inverter operation Noise-reduced design Also available in combination with CCV 2. Noise-reduced aluminium rotor The rotor with plastic sleeve reduces the rattling noises in the rotor/hub connection. At the same time, this increases the service life of this connection.
10I11 INTORQ I BFK458 spring-applied brake Technical data 50 10 20 30 40 mm 0 Basic module E (with torque adjustment ring) A B 1 2 3 4 5 6 7 8 Without counter friction surface, hand release (as option) Hand release mounted in standard direction C D E a Schutzvermerk ISO 16016 beachten. Copyright reserved. Gr. b d J7 vorg. d H7 Standard d1 d2 d5 d6 j7 d7 d8 d9 H9 d10 d11 d12 d13 d16 d17 d18 di da h h1 min h1max h2 Size F b d J7 1) d H7 2) d 1 d 2 d 5 d 6j7 d 7 d 8 d 9 d 10 d 11 d 12 d 13 d 16 d 17 d 18 di da 06 spec. 88 max 10 10/11/12/14/15 3xM4 72 91 87 87 52 24 31 8 13 9,6 3x4,4 86 36 40 60 36,3 39,3 43,2 1 06 3.4608 3/8 106,5 5/810 3xM4 11/12/14/15/20 2.83 3.58 3xM5 3.43 90 3.43 109 105 2.05105 0.94 60 H9 26 1.22 410.3158 0.511 13 0.378 9,6 3x5,5 3x0.17106 3.3845 1.41 56,1 1.57 76,5 2.36 42,8 46,8 50,8 1 10 132 10 11/12/14/15/20 3xM6 112 135,4 130 130 68 35 45 10 13 12 3x6,6 132 52 66,1 95 48,4 52,4 55,9 2 08 4.19 3/8 3/4 3xM5 3.54 4.29 4.13 4.13 2.36 1.02 H9 1.61 0.315 0.511 0.378 3x0.21 4.17 1.77 1.85 3.03 12 152 14 20/25 3xM6 132 155 150 150 82 40 52 10 13 12 3x6,6 153 68 70,1 115 54,9 58,9 67,5 2 10 5.2014 3/8 169 3/414 3xM6 20/25/30 4.41 5.28 3xM8 5.12145 5.12 171 165 2.68165 1.38 92 H9 52 1.77 550.394 12 0.512 24 0.472 14 3x9 3x0.26169 5.1978 2.04 80,1 2.60 124 3.74 66,3 71,3 77,3 2 16 187,6 15 25/30/35/38 3xM8 170 196 190 190 102 12 5.98 9/16 1 3xM6 5.20 6.10 5.91 5.91 3.23 1.57 H9 52 70 12 24 14 3x9 194 90 104,1 149 72,5 77,5 85,5 2,25 2.05 0.394 0.512 0.472 3x0.26 6.02 2.67 2.76 4.53 18 218,6 20 30/35/40/45 6xM8 196 223 217 217 116 62 77 14 24 15 4x9 - - 129,4 174 83,1 89,1 97,1 3 14 G 6.6520 9/16 252,6 1 1/8 25 3xM835/40/45/50 5.71 6.65 6xM10 6.50230 6.50 259 254 3.62254 2.05 135 H9 72 2.17 900.472 14 0.945 24 0.551 17 4x11 3x0.35-6.65-3.07 148,1 3.15 206 4.88 97,6 104,6 114,6 3,5 16 7.6625 9/16 297,6 1 1/4 30 3) 3xM8 40/45/50/55/60/65/70 6.69 7.68 6xM10 7.48278 7.48 308 302 4.02302 2.05 180 H9 85 2.76 120 0.472 16 0.945 24 0.551 18,4 6x11 3x0.35-7.63-3.54 199,1 4.09 254 106,7 5.87 115,7 127,7 4,5 18 8.74 3/4 1 3/4 6xM8 7.72 8.74 8.54 8.54 4.57 2.44 H9 3.03 0.551 0.945 0.610 4x0.35 6) - - 5.08 6.85 20 10.2 1 1 15/16 6xM10 9.06 10.2 10 10 5.31 2.83 H9 3.54 0.551 0.945 0.650 4x0.43 6) - - 5.83 8.11 25 11.9 1 1/8 2 1/2 3) 6xM10 10.9 12.1 11.9 11.9 6.50 3.35 H9 4.72 0.630 0.945 0.724 6x0.43 - - 7.83 10 H 1) Pilot bored without keyway 2) Standard keyway in accordance with DIN 6885/1 P9, selection of the shaft diameter dependent upon type of load (see the operating instructions) 6) The thread in the mounting surface is offset by 30 in relation to the centre axis of the manual release lever Recommended ISO shaft tolerances: up to Ø 1.96 in = k6 3) over Ø 1.96 in = m6 Ø 1.49 and Ø 1 2.75 in, keyway in accordance 2 with DIN 6885/3 P9 3 4 5 6 4) Dimensions in inches Hand release angle tolerance +3 5) Recommended lever length for 1.5 M K 7 8
With flange,hand release and seal ring (as option) 6 5 6 7 6 7 8 7 8 9 8 9 10 9 10 11 10 11 12 11 12 12 on flange A A Hand release mounted in a rotated position With flange, hand release (as option), mounted With friction plate, hand release (as option) B B A B Not possible for sizes 18 and 20 C C C D D D E E E d10 d12 d17 d11 d13 d18 d12 d16 di d13 d17 dad16 d18 hd17 dih1 d18 min da h1max di h da h2 h1 min h3 h h1max h4minh5 h2h1max standard h3 h2h5 h4 max h3 h5 standard h6h4 h7 h5 h5 standard max h8 h6h5 h9 max h7 h11 h6h8 h7 l h9l1 h8 SLN h11 h9a l h11 l1 Gr. SLN l a l1 SLN a Gr. +5 +5 Gr. +5 Size h h F F 1 h 1 h 2 h 3 h 4 h 5 h 5) 5 h 6 h 7 h 8 h 9 l l 1 S LN a b 4) 31 13 86 9,6 836 13 3x4,4 40 9,686 603x4,4 3636,3 8640 min. 39,3 36 60 40 43,2 max. 36,3 601 39,36,36 43,2 15,8 39,3 1 43,2 1076 15,8 standard - 6 107 54 15,8max. 23 107-32,8 54 56-23 1,5 5432,8 23 18 56 400 32,8 1,5 0,2 5625 18 10 1,5 400 0618 0,2 400 25 10 0,2 06 25 10 06 41 13 106 9,6 845 13 3x5,5 56,1 106 76,5 4542,8 56,146,8 76,5 50,8 42,8 146,8 7 50,8 16,3 1 1167 16,3-116 63 23-41,3 63 65 23 1,541,3 20 65 400 1,5 0,2 25 20 10 400 080,2 25 10 08 06 9,6 3x5,5 1.43 106 1.55 45 56,1 1.70 76,5 0.039 42,8 0.236 46,8 50,8 0.622 1 4.21 7 16,3 116 2.15 0.906-63 1.29 23 41,3 2.22 65 0.709 1,5 16 20 400 0.0079 0,2 25 25 10 12 08 45 132 10 12 52 13 3x6,6 66,1 12 132 953x6,6 5248,4 132 66,152,4 9566,1 55,9 48,4 952 52,48,4 9 55,9 27,4 52,4 2 55,9 1329 27,4-9 73,3 132 27,4 23 132-42,4 73,377,8-23 73,3 1,542,4 23 20 77,8 400 42,4 1,5 0,277,8 25 20 10 1,5 400 1020 0,2 400 25 10 0,2 10 25 10 10 13 153 12 68 3x6,608 70,1 153 115 68 1.69 54,970,1 1.84 58,9115 2.00 67,5 54,9 258,9 0.059 9 67,5 0.276 29,4 2 0.642 1619 29,4 4.57-161 85 23-2.48 47,4 85 0.906 88 23 1,547,4 1.63 25 882.56 400 1,5 0.787 0,3 25 10 40016 120,3 25 0.0079 10 25 12 10 52 10 13 12 3x6,6 153 68 70,1 115 54,9 58,9 67,5 2 9 29,4 161-85 23 47,4 88 1,5 25 400 0,3 25 10 12 55 24 169 12 14 78 24 3x9 80,11014 169 1243x9 78 1.91 66,3 169 80,12.06 71,3 78124 80,1 77,3 2.20 66,3124 271,3 0.079 66,3 11 77,3 33,8 0.354 71,3 2 77,3 195 1.08 11 233,8 5.20-11 97,9 195 33,8 32 195-2.91 50 97,9101 0.906-32 97,9 1,51.67 50 32 30 101 400 3.06 50 1,5 0,3101 0.787 25 30 10 1,5 4001614 30 0,3 400 25 0.0079 10 0,3 25 14 10 9 14 70 24 194 12 14 90 24 104,1 3x9 14 194 1493x9 9072,5 194 104,177,5 90149 104,1 85,5 72,5149 2,25 77,572,5 11 85,5 37 77,52,25 85,5 24011 2,25 37-11 111 240 37 32 240-53,5 111114-32 111 1,53,5 32 30 114 600 53,5 1,5 0,3114 25 30 10 1,5 600 1630 0,3 600 25 10 0,3 16 25 10 16 12 2.16 2.32 2.66 0.079 0.354 1.16 6.34 3.35 0.906 1.87 3.48 0.984 16 0.0118 25 10 77 24-14 15-24 129,4 4x9 15-174 4x9-83,129,4-89,1-174129,4 97,1 83,1174 389,183,1 11 97,1 41,6 89,1 3 97,1 27911 341,6 39411 125 279 41,6 32 394 279 59,1 125128 39432 125-59,1 32 35 128 600 59,1 0,4-128 25 35 10 600-1835 0,4 600 25 10 0,4 18 25 10 18 G G 90 24-14 17-24 4x11 148,1 1417-206 4x11 2.61-97,6 148,1-2.81 104,6-206148,1 114,6 3.04 97,6206 3,5104,6 0.079 97,6 11 114,6 48,1 0.433 104,63,5 114,6 319 1.30 3,5 48,1 7.68 41611 146 319 48,1 32 416 319 68,6 3.86 146 148,5 416 1.26 32 146-68,6 1.9732 40148,5 600 68,6 4.00 0,4-148,5 1.18 25 40 10 600-1620 40 0,4 600 25 0.0118 10 0,4 25 20 10 9 20 120 24-18,4 16-24 6x11 199,18,4-2546x11-106,7 199,1-115,7-254199,1 127,7 106,7254 4,5115,7 106,7 12,5127,7 57,7 115,74,5 127,7 445 12,5 4,5 57,7 5012,5 170 445 57,7 32 501 445 88,7 170175 50132 170-88,7 32 50 175 600 88,7 0,5-175 25 50 10 600-250 0,5 600 25 10 0,5 25 10 25 16 2.85 3.05 3.37 0.089 0.433 1.48 9.45 4.49 1.26 2.11 4.57 1.18 24 0.0118 25 10 F G 18 3.27 3.51 3.82 0.108 0.433 1.62 11.0 15.5 4.88 1.26 2.33 5.06 1.38 24 0.0157 25 9 20 3.84 4.12 4.51 0.138 0.433 1.87 12.6 16.4 5.75 1.26 2.70 5.89 1.57 24 0.0157 25 10 25 4.20 4.56 5.03 0.177 0.492 2.27 17.5 19.7 6.69 1.26 Datum/date Name/name Benennung/name Datum/date 3.49 of Name/name drawing 6.91 Datum/date Benennung/name 1.97 Name/name of drawing Benennung/name 24 of drawing 0.0197 25 10 Maßblatt BFK458-E Maßblatt BFK458-E Maßblatt BFK458-E Bea/drn 01.11.2012 Gepr/chkd 01.11.2012 01.11.2012Bea/drn Strate 01.11.2012 Strate 01.11.2012 Gepr/chkd Dittrich 01.11.2012 Dittrich Standardausführung / Baugröße Standardausführung 06-25 / Baugröße H 06-25 H Standardausführung / Baugröße 06-25 5 Ind./ - Anz./ xxxxxx Änder-Nr./ Zeichnungsnummer/drawing no. Zeichnungsnummer/drawing no. Blatt/sheet Blatt/sheet CAD CAD Zeichnungsnummer/drawing no. CAD 01.11.2012 5 -STR xxxxxx 5-01.11.2012 xxxxxx STR 01.11.2012 STR 1 1 1 Datum/ Name/ i M14.0271 Ind./ Anz./ Änder-Nr./ Datum/ Name/ M14.0271 Ind./ Anz./ Änder-Nr./ Datum/ Name/ i M14.0271 4 4 4 ind. quan. revision no. ind. date quan. namem14.0271_bfk458-06...25e_standard.iam revision Datei/file ind. no. quan. date revision no. M14.0271_BFK458-06...25E_Standard.iam Datei/file dateersatz fuer/back-up M14.0271_BFK458-06...25E_Standard.iam Datei/file for Zeichnung Ersatz fuer/back-up gleicher for Nr. Ersatz vom fuer/back-up Zeichnung 02.04.1998 for gleicher Zeichnung Nr. vom gleicher 02.04.1998 Nr. vom 02.04.1998 6 5 6 7 6 7 8 7 8 9 8 9 10 9 10 11 10 11 12 11 12 12 Norm/appr StrateBea/drn Dittrich Gepr/chkd Norm/appr Norm/appr Blatt/sheet H
12I13 INTORQ I BFK458 spring-applied brake Technical data 50 10 20 30 40 mm 0 Basic module N (without torque adjustment ring) A B 1 2 3 4 5 6 7 8 Without counter friction face, hand release (as option) Hand release mounted in standard direction C D E a Schutzvermerk ISO 16016 beachten. Copyright reserved. Gr. b d J7 vorg. d H7 Standard d1 d2 d3 H7 d5 d6 j7 d7 d10 d11 d12 d13 d14 d15 d16 d17 d18 di da h h2 h F 88 91 31 9,6 60 Size b d J7 1) spec. 06 d H7 2) max. d 1 10 d 2 10/11/12/14/15 d 3H7 d 5 3xM4 d 6j7 72 d 7 25 d 10 87 d 11 87 d 12 8 d 13 13 d 4) 14 4xM4 d 15 37,7 d 16 3x4,4 d 17 86 d 18 36 di 40 da 36,3 1 08 106,5 10 11/12/14/15/20 3xM5 90 32 109 105 105 41 8 13 9,6 4xM5 49 3x5,5 106 45 56,1 76,5 42,8 1 06 3.46 3/8 10 5/8 132 3xM4 10 2.83 0.98 11/12/14/15/20 3.58 3.43 3xM6 112 3.43 1.22 42 135 130 0.315 0.511 130 45 10 0.378 13 12 4xM4 1.49 3x0.17 3.38 1.41 1.57 2.36 4xM5 54 3x6,6 132 52 66,1 95 48,4 2 08 4.19 3/8 12 1523/4 143xM5 3.5420/25 1.25 4.29 3xM6 4.13 132 50 4.13 1551.61 150 150 0.31552 0.511 10 13 0.37812 4xM5 1.92 64 3x0.21 3x6,6 4.17 153 1.77 68 1.85 70,1 3.03115 54,9 2 9 14 169 14 20/25/30 3xM8 145 60 171 165 165 55 12 24 14 4xM6 75 3x9 169 78 80,1 124 66,3 2 1 10 5.20 3/8 3/4 3xM6 4.41 1.65 5.28 5.12 5.12 1.77 0.394 0.512 0.472 4xM5 2.12 3x0.26 5.19 2.04 2.60 3.74 16 187,6 15 25/30/35/38 3xM8 170 68 196 190 190 70 12 24 14 4xM6 85 3x9 194 90 104,1 149 72,5 2,25 1 12 5.98 9/16 18 218,6 1 203xM6 5.20 30/35/40/45 1.96 6.10 6xM8 5.91 196 75 5.91 2232.05 217 217 0.39477 0.512 14 24 0.47215 4xM5 4xM8 2.51 95 3x0.26 4x9 6.02-2.67-2.76 129,44.53174 83,1 3 1 G 14 6.65 9/16 20 252,6 1 1/8 25 3xM8 5.71 35/40/45/50 2.36 6.65 6xM10 6.50 230 85 6.50 259 2.17 254 254 0.472 90 0.945 14 24 0.551 17 4xM6 4xM10 2.95 110 3x0.35 4x11 6.65-3.07-3.15 148,1 4.88 206 97,6 3,5 1 25 297,6 30 40/45/50/55/60/65/70 6xM10 278 115 308 302 302 120 16 24 18,4 4xM10 140 6x11 - - 199,1 254 106,7 4,5 12 16 7.66 9/16 1 1/4 3) 3xM8 6.69 2.67 7.68 7.48 7.48 2.76 0.472 0.945 0.551 4xM6 3.34 3x0.35 7.63 3.54 4.09 5.87 H 18 8.74 3/4 1 3/4 6xM8 7.72 2.95 8.74 8.54 8.54.03 0.551 0.945 0.610 4xM8 3.74 4x0.35 6) - - 5.08 6.85 20 10.2 1 1 15/16 6xM10 9.06 3.34 10.2 10 10 3.54 0.551 0.945 0.650 4xM10 4.33 4x0.43 6) - - 5.83 8.11 25 11.9 1 1/8 2 1/2 3) 6xM10 10.9 4.52 12.1 11.9 11.9 4.72 0.630 0.945 0.724 4xM10 5.51 6x0.43 - - 7.83 10 1) Pilot bored without keyway 6) The thread in the mounting surface is offset by 30 in relation to the centre axis of the 2) Standard keyway in accordance with DIN 6885/1 P9, selection of the shaft diameter manual release lever dependent upon type of load (see the operating instructions) Recommended ISO shaft tolerances: up to Ø 1.96 in = k6 1 2 3 4 5 6 7 8 3) over Ø 1.96 in = m6 Ø 1.49 and Ø 2.75 in, keyway in accordance with DIN 6885/3 P9 4) Dimensions in inches Hand release angle tolerance +3 5) Recommended lever length for 1.5 M K
5 6 6 7 7 8 8 9 9 10 10 11 11 12 12 6 7 8 9 10 11 12 With flange, hand release and seal ring (as option) (as option), mounted hand release (as option) A A on flange Hand release mounted in a rotated position With flange, hand release With friction plate, B B A B Not possible for sizes 18 and 20 C C C D D D E E E d15 d16 d17 d18 di da h h2 h3 h4 h5 standard h5 max h6 h7 h8 h9 h11 l l1 SLN a +5 Gr. 13 1 d12d14 d13d15d14 d16d15 d17 d16 d18 d17di d18 dadi h da h2 h h3 h2h4 h3h5 standard h4 h5 h5 standard max h5 h6 max h7h6 h8h7 h9h8 h11h9 l h11l1 SLN l l1a FSLN a Gr. Gr. +5 +5 F 37,7 3x4,4 86 Size 36 h 40 h 60 2 36,3 h 3 1 h 4 6 15,8 h 5 107 h 5) 5 - h 54 6 23 h 7 32,8 h 8 56 1,5 h 9 18 400 l 0,2 25 l 1 1 0 S 06 LN a b 4),6 134xM4 9,6 37,7 4xM4 3x4,4 37,786 3x4,4 36 8640 36 6040 36,360 standard 1 36,36 115,8 max. 6 107 15,8 107-54 - 2354 32,8 23 5632,8 1,556 18 1,5400 18 0,2 400 25 0,2 1 0 25 06 1 0 06 49 3x5,5 106 45 56,1 76,5 42,8 1 7 16,3 116-63 23 41,3 65 1,5 20 400 0,2 25 10 08,6 134xM5 9,6 494xM5 3x5,549 1063x5,5 45 106 56,145 76,5 56,1 42,8 76,5 1 42,87 116,3 7 116 16,3 116-63 - 2363 41,3 23 6541,3 1,565 20 1,5400 20 0,2 400 25 0,2 10 25 08 10 08 54 3x6,6 13206 52 1.43 66,1 0.039 95 48,4 0.236 2 0.622 9 27,4 4.21 132-73,3 2.15 230.90642,4 1.29 77,8 1,5 2.22 20 400 0.709 0,2 25 16 10 0.0079 10 25 12 12 0 134xM5 12 544xM5 3x6,654 1323x6,6 52 132 66,152 9566,1 48,495 2 48,49 227,4 9 132 27,4 132-73,3-23 73,3 42,4 23 77,8 42,4 1,577,8 20 1,5400 20 0,2 400 25 0,2 10 25 10 10 10 64 3x6,6 153 68 70,1 115 54,9 2 9 29,4 161-85 23 47,4 88 1,5 25 400 0,3 25 10 12 12 0 134xM5 12 08 644xM5 1.69 3x6,664 1533x6,6 0.059 68 153 0.276 70,168 115 70,1 0.642 54,9115 4.57 2 54,99 2 29,4 9 161 29,4 2.48 161 0.906-85 - 1.63 2385 2.56 47,4 23 8847,4 0.787 1,588 16 25 1,5 0.0079 400 25 0,3 400 25 25 0,3 10 25 10 12 10 12 75 3x9 169 78 80,1 124 66,3 2 11 33,8 195-97,9 32 50 101 1,5 30 400 0,3 25 10 14 14 2 244xM6 14 7510 4xM63x9 1.91 75169 3x9 78 0.079169 80,10.354 78 124 80,1 1.08 66,3124 5.20 2 66,311 233,8 11 195 33,8 2.91 195-0.906 97,9-1.6732 97,9 3.06 5032 101 0.787 50 1,5101 1630 1,5400 0.0079 30 0,3 400 25 25 0,3 10 25 149 10 14 85 3x9 194 90 104,1 149 72,5 2,25 11 37 240-111 32 53,5 114 1,5 30 600 0,3 25 10 16 14 2 244xM6 14 854xM6 3x9 85194 3x9 90 194 104,190 149 104,1 72,5149 2,2572,5 11 2,2537 11 240 37 240-111- 32111 53,5 32 114 53,5 1,5114 30 1,5600 30 0,3 600 25 0,3 10 25 16 10 16 95 4x9-12 - 129,4 2.16 174 0.079 83,1 0.354 3 1.16 11 41,6 6.34 279 394 125 3.35 320.90659,1 1.87 128 3.48-35 600 0.984 0,4 25 16 10 0.0118 18 25 10 G 15 4 24 110 4xM815 4x11 954xM8 - - 4x9 95 148,1-4x9 206-129,4 - - 97,6 3,5 174 129,4 11 83,1174 48,1 3 83,111 3 319 41,6 11 416 279 41,6 279 146 394 32 68,6 125 394 148,5 32125-59,1 32 40 128 59,1 600 0,4-128 25 35-10 600 35 20 0,4 600 25 0,4 10 25 18 10 18 G 17 4 24 140 4xM1017 6x11 110 4xM10 14 - -4x11 110 2.61 199,1-4x11 0.079 254-148,1-0.433-106,7 4,5 206 148,1 1.30 12,5 97,6206 7.68 57,73,5 97,611 3,5 445 48,1 11 501 319 48,1 3.86 319 1.26 170 416 32 88,7 146 416 1.97 175 32146 4.00-68,6 32 50148,5 68,6 1.18 600 0,5-148,5 16 25 40-0.0118 10 600 40 250,4 600 25 25 0,4 10 25 9 20 10 20 68,4 24 4xM10 18,4140 4xM10 16 6x11140 2.85-6x11 0.089-199,1-0.433-254 199,1 1.48 106,7 254 9.45 4,5106,7 12,5 4,557,7 12,5 445 57,7 4.49 445 501 1.26 170 501 2.1132 170 4.57 88,7 32 175 88,7 1.18-175 2450-600 0.0118 50 0,5 600 25 25 0,5 10 25 2510 10 25 F G 18 3.27 0.108 0.433 1.62 11.0 15.5 4.88 1.26 2.33 5.06 1.38 24 0.0157 25 9 20 3.84 0.138 0.433 1.87 12.6 16.4 5.75 1.26 2.70 5.89 1.57 24 0.0157 25 10 Datum/date Name/name Benennung/name of drawing 25 4.20 0.177 0.492 2.27 17.5 19.7 6.69 1.26 3.49 6.91 Maßblatt 1.97 BFK458-N 24 0.0197 25 10 Bea/drn 01.11.2012 Strate Datum/date Name/name Benennung/name of drawing Datum/date Name/name Benennung/name of drawing Gepr/chkd 01.11.2012 Dittrich Bea/drn 01.11.2012 Strate Bea/drn 01.11.2012 Norm/appr Standardausführung Strate - Baugröße 06-25 H Maßblatt Maßblatt BFK458-N BFK458-N Gepr/chkd 01.11.2012 Dittrich Gepr/chkd Zeichnungsnummer/drawing 01.11.2012 Dittrichno. Blatt/sheet CAD Norm/appr Standardausführung - Baugröße 06-25 Norm/appr Standardausführung - Baugröße 06-25 H 5 - xxxxxx 01.11.2012 STR Zeichnungsnummer/drawing 2no. Blatt/sheet Ind./ Anz./ Änder-Nr./ Datum/ Name/ i M14.0271 CADZeichnungsnummer/drawing no. Blatt/sheet 5 - xxxxxx 01.11.2012 STRCAD 4 2 ind. quan. revision no. 5 - xxxxxx date namem14.0271_bfk458-06...25n_standard.iam Datei/file 01.11.2012 STR Ersatz fuer/back-up for Zeichnung gleicher Nr. vom 02.04.1998 2 Ind./ Anz./ Änder-Nr./ Datum/ Name/ Ind./ Anz./ Änder-Nr./ Datum/ Name/ i M14.0271 M14.0271 4 4 ind. quan. revision no. date namem14.0271_bfk458-06...25n_standard.iam Datei/file Ersatz fuer/back-up for Zeichnung gleicher Nr. vom 02.04.1998 ind. quan. revision no. date namem14.0271_bfk458-06...25n_standard.iam Datei/file Ersatz fuer/back-up for Zeichnung gleicher Nr. vom 02.04.1998 6 7 8 9 10 11 12 5 6 7 8 9 10 11 12 6 7 8 9 10 11 12 H
14I15 INTORQ I BFK458 spring-applied brake Technical data 2 x basic module N + connection flange Double brake as redundant braking system, suitable for use in stage machinery and many other areas of application. Available with hand release as an option. 1 2 3 4 5 6 7 8 9 10 11 Gr. d J7 vorg. d H7 Standard d1 d2 d3 H7 d6 j7 d14 d15 di da h h2 h14 h15 l l1 SLN Gr. 06 10 10/11/12/14/15 3xM4 72 25 87 4xM4 37,7 40 60 36,3 1 12 84,6 18 400 0,2 25 06 08 10 11/12/14/15/20 3xM5 90 32 105 4xM5 49 56,1 76,5 42,8 1 12 97,6 20 400 0,2 25 08 10 10 11/12/14/15/20 3xM6 112 42 130 4xM5 54 66,1 95 48,4 2 13 109,8 20 400 0,2 25 10 12 14 20/25 3xM6 132 50 150 4xM5 64 70,1 115 54,9 2 16 125,8 25 400 0,3 25 12 14 14 20/25/30 3xM8 145 60 165 4xM6 75 80,1 124 66,3 2 17 149,6 30 400 0,3 25 14 Size 16 15 25/30/35/38 3xM8 170 68 190 4xM6 85 104,1 149 72,5 2,25 20 165 30 600 0,3 25 16 d J7 1) d H7 2) d 1 d 2 d 3H7 d 6j7 d 14 d 15 di da h h 2 h 14 h 15 l l 1 18 20 30/35/40/45 6xM8 196 75 217 4xM8 95 129,4 174 83,1 3 20 186,2 35 600 0,4 25 18 spec. max. S LN a 20 25 35/40/45/50 6xM10 230 85 254 4xM10 110 148,1 206 97,6 3,5 20 215,2 40 600 0,4 25 20 06 3/8 5/8 3xM4 25 302.83 40/45/50/55/60/65/70 0.98 3.43 6xM10 278 4xM4115 1.49 302 4xM10 1.57140 2.36 199,1 36.3 254 106,7 0.039 4,5 0.47 25 238,4 3.3450 600 0.709 0,5 25 15.725 0.0079 25 08 3/8 3/4 3xM5 3.54 1.25 4.13 4xM5 1.92 1.85 3.03 42.8 0.039 0.47 3.85 0.787 15.7 0.0079 25 10 3/8 3/4 3xM6 4.41 1.65 5.12 4xM5 2.12 2.60 3.74 48.4 0.079 0.51 4.33 0.787 15.7 0.0079 25 12 9/16 1 3xM6 5.20 1.97 5.91 4xM5 2.51 2.76 4.53 54.9 0.079 0.62 4.96 0.984 15.7 Datum/date Name/name 0.0118 25 Bea/drn 02.11.2012 Strate Dittrich 14 9/16 1 1/8 3xM8 5.71 2.36 6.50 4xM6 2.95 3.15 4.88 66.3 0.079 0.66 5.90 1.18 15.7 Gepr/chkd Norm/appr 0.0118 25 Doppelbremse / Ba CAD Zeichnungsnummer/drawing no. 16 9/16 1 1/4 3) 3xM8 6.69 2.68 7.48 4xM6 3.34 4.09 5.87 72.5 0.089 0.78 5 Ind./ 6.49 xxxxxx Änder-Nr./ 1.18 02.11.2012 STR Datum/ Name/ 23.6 0.0118 i25 M14.0270_BFK458-06...25_Doppelbremse.iam M14.027 for Zeichnung gle - Anz./ ind. quan. revision no. date name Datei/file Ersatz fuer/back-up 1 2 3 4 5 6 7 8 9 10 11 18 3/4 1 3/4 6xM8 7.72 2.95 8.54 4xM8 3.74 5.08 6.85 83.1 0.108 0.78 7.32 1.38 23.6 0.0154 25 20 1 1 15/16 6xM10 9.06 3.35 10.0 4xM10 4.33 148.1 5.83 8.11 0.138 0.78 8.46 1.57 23.6 0.0154 25 25 2 1/8 2 1/2 3) 6xM10 10.9 4.53 11.9 4xM10 5.51 199.1 7.83 10.0 0.177 0.98 9.37 1.97 23.6 0.0197 25 Benennung/name of drawing 02.11.2012 Maßblatt B 1) Pilot bored without keyway 2) Standard keyway in accordance with DIN 6885/1 P9, selection of the shaft diameter dependent upon type of load (see the operating instructions) 3) Ø 1.49 and Ø 2.75 in, keyway in accordance with DIN 6885/3 P9 Dimensions in inches
Technical data Basic module N + tacho flange 4 5 6 7 8 9 10 Size d J7 1) d H7 2) d 1 d 2 d 3H7 d 6j7 d 14 d 15 d 19H7 d 20h7 d 21 di da h h 2 h 12 h 13 l l 1 S LN a Gr. spec. max. d J7 vorg. d H7 Standard d1 d2 d3 H7 d6 j7 d14 d15 d19 H7 d20 h7 d21 di da h h2 h12 h13 l l1 SLN Gr. 06 3/8 5/8 3xM4 2.83 0.984 3.43 4xM4 1.49 1.57 3.74 3.85 1.57 2.36 1.43 0.039 1.65 0.15 0.709 15.7 0.0079 25 06 10 10/11/12/14/15 3xM4 72 25 87 4xM4 37,7 40 95 98 40 60 36,3 1 42,3 4 18 400 0,2 25 06 08 3/8 3/4 3xM5 3.54 1.26 4.13 4xM5 1.92 1.96 4.52 4.56 2.20 3.03 1.69 0.039 1.96 0.15 0.787 15.7 0.0079 25 08 10 11/12/14/15/20 3xM5 90 32 105 4xM5 49 50 115 116 56,1 76,5 42,8 1 49,8 4 20 400 0,2 25 08 10 10 3/8 10 3/4 3xM6 4.41 11/12/14/15/20 1.65 5.12 4xM5 3xM6 112 42 2.12 130 2.36 4xM5 5.51 54 5.55 60 2.59 140 3.74 1.91 0.079 2.24 141 66,1 95 0.15 0.787 15.7 0.0079 25 48,4 2 57,4 4 20 400 0,2 25 10 12 12 9/16 14 1 3xM6 20/25 5.20 1.973xM6 5.91132 4xM5 50 2.51 150 4xM5 2.36 6.37 64 6.49 60 2.75 162 4.53 165 2.1670,1 0.079 2.12 115 0.15 54,90.984215.763,9 0.0118 25 4 25 400 0,3 25 12 14 14 9/16 14 1 1/8 3xM8 20/25/30 5.71 2.363xM8 6.50145 4xM6 60 2.95 165 4xM6 3.14 6.96 75 7.12 80 3.14 177 4.88 181 2.5880,1 0.079 3.03 124 0.15 66,31.18 215.777,3 0.0118 25 4 30 400 0,3 25 14 16 16 15 9/16 25/30/35/38 1 1/4 3) 3xM8 6.69 3xM8 170 68 2.68 7.48 4xM6 190 3.34 4xM6 3.34 85 8.03 85 8.11 204 4.09 206 104,1 149 5.87 2.85 0.089 3.27 72,5 2,25 83,5 4 0.15 1.18 23.6 0.0118 25 30 600 0,3 25 16 18 20 30/35/40/45 4xM8 196 75 217 4xM8 95 90 233 237 129,4 174 83,1 3 94,1 4 35 600 0,4 25 18 18 20 3/4 25 1 3/4 6xM8 7.72 35/40/45/50 2.95 8.54 4xM8 4xM10 230 85 3.74 3.54 254 4xM10 9.17 110 9.33 90 5.07 271 6.85 3.27 0.108 3.70 274 148,1 206 0.15 1.38 23.6 0.0154 25 97,6 3,5 108,6 4 40 600 0,4 25 20 2025 1 30 1 15/16 40/45/50/55/60/65/70 6xM10 9.06 3.356xM10 10.0278 4xM10 115 4.33 302 4xM10 3.54 10.7 140 10.7 120 5.82 322 8.11 324 3.84 199,1 0.138 4.29 254 0.15 106,7 1.574,523.6119,2 0.0154 25 4 50 600 0,5 25 25 25 1 1/8 2 1/2 3) 6xM10 10.9 4.53 11.9 4xM10 5.51 4.72 12.7 12.7 7.83 10.0 4.20 0.177 4.68 0.15 1.97 23.6 0.0197 25 1) Pilot bored without keyway 2) Standard keyway in accordance with DIN 6885/1 P9, selection of the shaft diameter dependent upon type of load (see the operating instructions) 3) Ø 1.49 and Ø 2.75 in, keyway in accordance with DIN 6885/3 P9 Dimensions in inches Norm/appr Datum/date Bea/drn 02.11.2012 Gepr/chkd 02.11.2012 Name/name Strate Dittrich Benennung/nam
16I17 INTORQ I BFK458 spring-applied brake Technical data Rated data Size P N 68 F S LN max S L max max. min. 1) J aluminium rotor [W] Operating brake [in] Holding brake [in] Adjustment [in] Rotor thickness [in] [lb-in 2 ] 06 20 0.0197 0.0118 0.0591 0.1772 0.0513 08 25 0.0197 0.0118 0.0591 0.2165 0.2084 10 30 0.0197 0.0118 0.0591 0.2953 0.6834 12 40 0.0295 0.0177 0.0787 0.3150 1.5377 14 50 0.0295 0.0177 0.0984 0.2953 2.1527 16 55 0.0295 0.0177 0.1378 0.3150 5.1255 18 85 0.0394 0.0236 0.1181 0.3937 9.9093 20 100 0.0394 0.0236 0.1575 0.4724 24.944 25 110 0.0492 0.0295 0.1772 0.6102 68.340 1) The friction lining is dimensioned so that the brake can be readjusted at least five times. Rated torques Size Rated torque M k [Nm] Reduction of rated torque at specified speed to x% Maximum speed 1500 r/min 3000 r/min max. n max [r/min] 06 2.95 87% 80% 74% 6000 08 5.90 85% 78% 73% 5000 10 11.8 83% 76% 73% 4000 12 23.6 81% 74% 73% 3600 14 44.3 80% 73% 72% 3600 16 59.0 79% 72% 70% 3600 18 111 77% 70% 68% 3600 20 192 75% 68% 66% 3600 25 295 73% 66% 66% 3000 As speed increases, so does wear. Operating times The listed operating times are guide values which apply to DC switching with rated air gap s Lr, warm coil and standard rated Rated torque Torque time rated dependent on excitation voltage Time t 11 = Delay time when connecting t 12 = Rise time of braking torque t 1 = Engagement time t 2 = Disengagement time t 3 = Slipping time torque. The times specified are mean values. The engagement time t 1 is approximately 8 to 10 times longer for AC switching. AC switching DC switching Excitation Time
Technical data Operating times Size Rated torque Q E [J] S hue [1/h] Operating times 1) [ms] M K [lb-ft] Connection on the DC side Disconnection t 11 t 12 t 1 t 2 06 2.95 3000 79 15 13 28 45 08 5.90 7500 50 15 16 31 57 10 11.8 12,000 40 28 19 47 76 12 23.6 24,000 30 28 25 53 115 14 44.3 30,000 28 17 25 42 210 16 59.0 36,000 27 27 30 57 220 18 111 60,000 20 33 45 78 270 20 192 80,000 19 65 100 165 340 25 295 120,000 15 110 120 230 390 1) The operating times specified relate to the use of INTORQ rectifiers and coils with a supply voltage of 205 V DC The maximum permissible friction work per switching cycle Q E relates to the standard friction lining Aluminium rotor design with low rate of wear The wear values in the table apply to the friction lining with low rate of wear and to the standard rated torque. The friction energies specified up to the point of maintenance are rough guide values that are subject to a high degree of variation depending on various influencing factors. Size 06 08 10 12 14 16 18 20 25 Q E Maximum permissible friction work per switching cycle [J] 100 r/min 3000 7500 12000 24,000 30,000 36,000 60,000 80,000 120,000 1000 r/min 3000 7500 12,000 24,000 30,000 36,000 60,000 80,000 120,000 1200 r/min 3000 7500 12,000 24,000 30,000 36,000 60,000 80,000 120,000 1500 r/min 3000 7500 12,000 24,000 30,000 36,000 60,000 24,000 36,000 1800 r/min 3000 7500 12,000 24,000 30,000 36,000 36,000 on request 3000 r/min 3000 7500 12,000 24,000 18,000 11,000 on request 3600 r/min 3000 7500 12,000 7000 on request Q BW [10 6 J] 85 158 264 530 571 966 1542 2322 3522 S hue [h -1 ] 79 50 40 30 28 27 20 19 15 Q BW = Friction energy of brake until maintenance S hue = Transitional operating frequency In the region of the load limit (operation > 50 % Q E ) the value for Q BW can drop as low as 40%.
18I19 INTORQ I BFK458 spring-applied brake Technical data Schaltarbeit Q [J] Service life and wear 1.000.000 Friction energy and operating frequency The brake has to be adjusted when s Lmax is 25 100.000 20 reached. The friction energy to be withstood 18 16 up to this point is dependent on a number of 14 12 Sizes factors: in particular, the inertias to be braked, 10.000 10 08 the braking speed, the operating frequency and the resulting temperature on the friction surfaces. 06 For this reason, no universal value for all operating 1.000 10 3 conditions can be given in respect of the amount of friction energy that can be handled before adjustment is required. In addition, increased wear 100 should be expected with a vertical brake shaft. The BFK458 can be adjusted when the maximum permissible working air gap is reached (s Lmax ). The 10 dimensioning of the friction lining allows it to be 1 10 100 1.000 10 3 10.000 readjusted at least 5 times. Operating frequency S h [h -1 ] Braking energy QR [J] SchalthŠufigkeit S h [h -1 ] - S - S hue S hmax = hue S Q smax = Q E(1- e h ) In ( Q 1 - R Q E ) The maximum permissible operating frequency S hmax depends on the braking energy Q R. The operating frequency S h results in the maximum permissible friction work during cyclic switching Q smax. Higher speed and switching energy values increase wear, because the friction surfaces are briefly subjected to very high temperatures. Maintenance Brakes are components which are subject to a great deal of wear. When installing the brake, it must be ensured that it can be easily accessed for inspection and maintenance purposes. Intervals between inspections should be set in accordance with the expected service life and load. For more information, please see the operating instructions. Where the amount of friction energy per switching operation is low, the brake's mechanical components can impose limitations in terms of service life. In particular, the rotor/hub connection, springs, armature plate and sleeves are subject to operational wear. The expected service life of the standard design is around 1 million load alternations. Solutions that are optimised in terms of service life are available in cases where a longer service life is required (consult the manufacturer). BFK458-L Guaranteed performance data for the LongLife design Guaranteed service life of brake mechanism: 10x10 6 repetitive cycles of operation 15x10 6 reversing cycles of operation The brake warranty covers either a period of two years or the guaranteed number of cycles whichever is reached first. The scope of the warranty in the event of premature failure covers replacement of the brake, including a flat-rate replacement fee
Accessories Hand release The hand release is used to release the brake by hand and can be retrofitted. The hand release springs back to its base position automatically after operation (1). The hand release requires an additional air gap S HL in order to function; this is factory-set prior to delivery. Dimension S HL (see the mounting instructions) must be checked once the equipment has been mounted. Size s +0.1 LN s +0.1 HL -0.05 [in] [in] (1) 06 08 0.0079 0.0349 10 12 14 0.0118 0.0591 16 18 20 0.0154 0.0787 25 0.0197 0.0984 s HL s LN Flange A flange can be used if no suitable counter friction face is available. The flange can also be fitted with a cover ring. Friction plate A friction plate is available for sizes 06 up to and including 16. This should be used if the counter face is smooth and machined, but is not suitable as a friction surface. The plate can be combined with a cover ring. Flange Friction plate (sizes 06 16)
20I21 INTORQ I BFK458 spring-applied brake Accessories Centring flange (tacho brake) Basic module N combined with a centring flange is suitable for mounting a tacho generator. Connection flange (double brake) The connection flange can be used to adapt a second basic module to basic module N; the resulting double brake is suitable for use in stage machinery or other applications with increased safety requirements. Seal To a large extent, the cover ring prevents the exit or ingress of dust, humidity, dirt, etc., out of or into the braking area. The seal is inserted into the groove on the stator. If no suitable groove is available on the counter friction face, we recommend the use of a flange or a friction plate. Centring flange Connection flange Seal
Accessories Brake cover A brake cover can be mounted onto basic module E and basic module N as an option, to protect the brake from water and dust (degree of protection acc. to IP65). This design is not available in conjunction with a hand release and a flange. Size d 1 d 2 d H8 3 d 4 d 5 h h 1 h 2 h 1) 3 06 5.31 4.72 3.86 4x0.217 M16x1.5 2.17 1.10 0.650 0.118 08 6.10 5.59 4.65 4x0.217 M20x1.5 2.40 1.34 0.787 0.118 10 7.28 6.54 5.63 4x0.217 M20x1.5 2.83 1.54 0.823 0.118 12 8.07 7.56 6.42 4x0.260 M20x1.5 3.23 1.65 0.906 0.118 14 8.86 8.35 7.20 4x0.260 M20x1.5 3.62 2.01 0.945 0.118 16 9.84 9.29 8.19 4x0.260 M20x1.5 3.86 2.05 0.984 0.118 18 11.2 10.6 9.37 4x0.260 M20x1.5 4.53 2.36 1.14 0.118 20 13.0 12.4 11.1 4x0.354 M20x1.5 5.16 2.72 1.38 0.118 25 15.4 14.5 12.9 4x0.354 M20x1.5 5.59 3.07 1.57 0.118 1) Recommended recess length on motor end shield
0 0 X Y Z Rz25 Rz6,3 Rz1 22I23 INTORQ I BFK458 spring-applied brake 1 2 3 4 5 6 7 8 50 Accessories 10 20 30 40 mm A Microswitch B 50 The brake can be fitted with a microswitch for the purpose of monitoring the release or wear. The C microswitch can be built into the circuit as an NC contact or an NO contact. Mounting the microswitch onto basic module E 1 2 3 4 5 6 7 8 9 10 11 12 10 20 30 40 mm A B As of June 2012, a new small microswitch D (with UL acceptance) is in use, which is perfectly adapted to the contour of the brake. The old switch design can be converted by connecting an adapter to the E same threaded holes. A B C Dimensions C F Size 12 14 16 18 20 25 Overall radius r 3.17 3.48 3.90 4.43 5.23 6.10 D E F Dimensions in inches Microswitch for hand release monitoring in combination with basic module N Schutzvermerk ISO 16016 beachten. Copyright reserved. G H 1 2 3 4 5 6 7 8 D Tol.Maß/ tol. size E Ind./ Anz./ ind. quan. F Schutzvermerk ISO 16016 beachten. Copyright reserved. G H Gate drives, for instance, are provided with brakes with hand release, and a microswitch for monitoring the hand release. In this case, the hand release must make it possible to move the gate to the desired position in manual operation, e.g. using a crank. This manual operation has to be detected via a microswitch, whose switching signal must be combined with the motor control so that the motor can be prevented from starting (thus also preventing any possible injury to the operator). The microswitch for hand release monitoring is a built-on option. Tol.Maß/ tol. size Ind./ ind. Anz./ quan. Abmaß/ deviation Änder-Nr./ revision no. Tol.Maß/ tol. size Datum/ date Abmaß/ deviation Datum/date Bea/drn Gepr/chkd Norm/appr Name/ name Datei/file Allgemeintoleranzen/ general tolerance CAD Oberflächen/ surface DIN ISO 1302 Name/name i BMK45816-001E_MS.iam Werkstoff/material Benennung/name of drawing Zeichnungsnummer/drawing no. 1 2 3 4 5 6 7 8 9 10 11 12 Ersatz fuer/back-up for Maßstab/scale Gewicht/weight Blatt/sheet G H The fixing bracket is screwed onto the stator via the threaded holes on the rear face. The fixing bracket enables a microswitch to be fastened to it. The two directions of release, towards and away from the motor, can be implemented by using different fixing brackets and microswitch settings.
Accessories Terminal box in combination with basic module N The connecting cables can easily be integrated into higher-level controls via the terminal box (brake sizes 12-25) in order to support different wiring options (total of 3 inputs/outputs). 2/4- pole terminal strips, 4-pole half-wave and bridge rectifiers and a microswitch connection can be integrated into the terminal box at the customer's request. The terminal box is mounted on the spring-applied brake using a fixing bracket and screws, as shown in the illustration. You can select the mounting angle according to your requirements by using the assembly kit. The terminal box is shown offset by 30 Size 12 14 16 18 20 25 b -0.197 0.217 0.492 0.906 1.48 1.79 h 4.80 5.12 5.59 6.10 6.85 7.80 r 4.96 5.28 5.75 6.24 6.97 7.91 Dimensions in inches
24I25 INTORQ I BFK458 spring-applied brake Accessories Bridge rectifiers and half-wave rectifiers Type code B E G 5 6 1 440 Brake Electronics Rectifier 1-Bridge rectifier 2-Half-wave rectifier 5-Bridge/half-wave rectifier 4-pole 6-pole 1-Mounting position horizontal 2-Mounting position vertical 3-Mounting position horizontal with snap-in stud 440 Voltage 440 V AC INTORQ 14.198.00 universal spark suppressor The universal spark suppressor limits the induced voltage arising when inductive direct current consumers are switched off on the DC side. These induced voltages can damage coils and switches. VDE 0580 therefore requires that, in order to avoid impermissibly high switchoff voltages and overvoltages, suitable protective measures must be provided by the user. The universal spark suppressor is available in 4 versions for the following voltage ranges: INTORQ Coil voltage Max. connection Max. coil Capacitor- b b 1 d e h l l 1 m [V DC] voltage power [W] voltage approx. approx. approx. [lb] 14.198.00.01 24 50 60 V ~ 110 250 V ~ 0.335 0.492 0.027 0.886 0.728 1.04 0.984 0.015 14.198.00.02 50 120 250 V ~ 110 630 V ~ 0.591 0.827 0.027 1.48 1.02 1.63 0.787 0.049 14.198.00.03 120 200 400 V ~ 110 1000 V ~ 0.511 0.787 0.027 1.48 0.945 1.63 0.591 0.037 14.198.00.04 200 250 555 V ~ 110 1000 V ~ 0.511 0.787 0.027 1.48 0.945 1.63 0.591 0.022 Dimensions Wiring example Parallel to contact Spark suppressor 14.198.00.XX Parallel to coil
Accessories Bridge rectifiers and half-wave rectifiers, 4-pole Dimensions BEG-142/143-270 BEG-242/243-555 Only for 143-270 or 243-555 INTORQ BEG-142/143-270 Bridge rectifiers, 4-pole BEG-142-270 vertical mounting position BEG-143-270 horizontal mounting position with snap-in stud Application area Current supply for spring-applied brakes from AC mains (normal excitation) Example: 103 V coil on 110 V mains Technical data Max. supply voltage 270 V~ Max. DC current at 140 F 1.0 A Max. ambient temperature -13 F to +176 F For the selection of associated coil voltages, please refer to the table The rectifiers are protected against overvoltage by input and output varistors. Half-wave rectifiers, 4-pole BEG-242-555 vertical mounting position BEG-243-555 horizontal mounting position with snap-in stud Application area Current supply for spring-applied brakes from AC mains (normal excitation) Example: 205 V coil on 460 V mains Technical data Max. supply voltage 555 V~ Max. DC current at 140 F 1.0 A Max. ambient temperature -13 F to +176 F For the selection of associated coil voltages, please refer to the table The rectifiers are protected against overvoltage by input and output varistors. Ug = U ~ = 230 V ~ = 205 V DC 1.11 1.11 Ug = U ~ = 400 V ~ = 180 V DC 2.22 2.22
26I27 INTORQ I BFK458 spring-applied brake Accessories Bridge rectifiers, 6-pole Dimensions BEG-162-270 BEG-161-270 INTORQ BEG-162-270 INTORQ BEG-161-270 Bridge rectifiers, 6-pole BEG-162-270 vertical mounting position BEG-161-270 horizontal mounting position Application area Current supply for spring-applied brakes from AC mains (normal excitation) Example: 103 V coil on 110 V mains Technical data Max. supply voltage 270 V~ Max. DC current at 140 F 0.75 A Max. ambient temperature -13 F to +176 F The rectifiers are protected against overvoltage by input and output varistors. BEG-162-270/161-270/ 262-460/261-460 rectifiers also contain the required spark suppressor. For the selection of associated coil voltages, please refer to the table Ug = U ~ = 230 V ~ = 205 V DC 1.11 1.11
Accessories Half-wave rectifiers, 6-pole Dimensions BEG-262-460 BEG-262-555 BEG-261-460 BEG-261-555 INTORQ BEG-262-460 INTORQ BEG-261-460 Half-wave rectifiers, 6-pole BEG-262-460 vertical mounting position BEG-261-460 horizontal mounting position BEG-262-555 vertical mounting position BEG-261-555 horizontal mounting position Application area Current supply for spring-applied brakes from AC mains (normal excitation) Example: 205 V coil on 460 V mains Technical data Max. supply voltage 460 V~/555 V~ Max. DC current at 140 F 0.75 A Max. ambient temperature -13 F to +176 F The rectifiers are protected against overvoltage by input and output varistors. BEG-162-270/161-270/262-460/261-460 rectifiers also contain the required spark suppressor. For the selection of associated coil voltages, please refer to the table Ug = U ~ = 400 V ~ = 180 V DC 2.22 2.22
28I29 INTORQ I BFK458 spring-applied brake Accessories Bridge/half-wave rectifier Once a set overexcitation time has elapsed, the bridge/half-wave rectifiers switch from bridge rectification to half-wave rectification. This makes it possible to improve switching performance or reduce power in accordance with coil dimensioning. Rectifier type Supply voltage Overexcitation Holding current derating Coil voltage Size Coil voltage Size [V AC] [V DC] [V DC] BEG-561-255-030 230 103 06 to 25 205 06 to 14 BEG-561-255-130 16 to 25 BEG-561-440-030-1 400 180 06 to 25 The information in this table is valid for the BFK458 with standard rated torque and for designs without pole shim (assignment for other brakes on request). Dimensions INTORQ BEG Connection diagrams AC switching DC switching Technical data Mains Bridge Coil Mains Coil Rectifier type Output voltage with bridge rectification 0.9xU1 Output voltage with half-wave rectification 0.45xU1 Ambient temperature (storage/operation) [ F] -13 to +176 In the case of switching on the DC side (fast engagement), switching must also occur on the supply side. Otherwise, overexcitation will not occur on restarting. Type Input voltage U1 Max. current l max. Overexcitation time t o (±20%) (40 Hz to 60 Hz) min Rated max Bridge Half-wave at U 1 min at U 1 Rated at U 1 max [V ~ ] [V ~ ] [V ~ ] [A] [A] [s] [s] [s] 0.430 0.300 0.270 BEG-561-255-030 160 230 255 3.0 1.5 BEG-561-255-130 1.870 1.300 1.170 BEG-561-440-030-1 230 400 440 1.5 0.75 0.500 0.300 0.270
Accessories Fastening options 4-pole rectifier Brake Bore Ø 0.169 Fastening options 6-pole rectifier and bridge/half-wave rectifier
30I31 INTORQ I BFK458 spring-applied brake Accessories Connection diagrams DC switching Bridge rectifiers BEG-162-270 BEG-161-270 Half-wave rectifiers BEG-262-460 BEG-261-460 Also for star connection With half-wave rectifier BEG-262-460 BEG-261-460 Coil 103 V 180 V AC switching Also for star connection Bridge rectifiers BEG-142-270 BEG-143-270 Also for star connection Half-wave rectifiers BEG-242-555 BEG-243-555 With half-wave rectifier BEG-242-555 BEG-243-555 Coil 103 V 180 V AC switching parallel to the motor Bridge rectifiers BEG-142-270 BEG-143-270 Half-wave rectifiers BEG-242-555 BEG-243-555 With half-wave rectifier BEG-242-555 BEG-243-555 Coil 103 V Also for star connection 180 V When using AC switching parallel to the motor, the engagement time is increased further by the motor voltage in generator mode.
Accessories Supply voltage selection table for bridge rectifiers and half-wave rectifiers Rectifier type and rated coil voltage for mains voltage AC Rectifier Rectifier type Spark suppressor Rectifier type Coil voltage 4-pole 6-pole rated voltage ± 10% V AC 1 A at 140 F INTORQ 0.75 A at 140 F V DC 42 V Half-wave BEG-243/242-555 14.198.00.01 BEG-262/261-460 20 V 48 V Bridge BEG-142/143-270 14.198.00.01 BEG-162/161-270 42 V Half-wave BEG-243/242-555 14.198.00.01 BEG-262/261-460 20 V 110 V Bridge BEG-142/143-270 14.198.00.02 BEG-162/161-270 103 V 220 V Bridge BEG-142/143-270 14.198.00.04 BEG-162/161-270 205 V Half-wave BEG-243/242-555 14.198.00.02 BEG-262/261-460 103 V 230 V Bridge BEG-142/143-270 14.198.00.04 BEG-162/161-270 205 V Half-wave BEG-243/242-555 14.198.00.02 BEG-262/261-460 103 V 240 V Bridge BEG-142/143-270 14.198.00.04 BEG-162/161-270 215 V Half-wave BEG-243/242-555 14.198.00.02 BEG-262/261-460 103 V 255 V Bridge BEG-142/143-270 14.198.00.04 BEG-162/161-270 225 V 277 V Half-wave BEG-243/242-555 14.198.00.03 BEG-262/261-460 127 V 290 V Half-wave BEG-243/242-555 14.198.00.03 BEG-262/261-460 127 V 380 V Half-wave BEG-243/242-555 14.198.00.03 BEG-262/261-460 180 V 400 V Half-wave BEG-243/242-555 14.198.00.03 BEG-262/261-460 180 V 415 V Half-wave BEG-243/242-555 14.198.00.03 BEG-262/261-460 180 V 420 V Half-wave BEG-243/242-555 14.198.00.03 BEG-262/261-460 180 V 440 V Half-wave BEG-243/242-555 14.198.00.04 BEG-262/261-460 205 V 460 V Half-wave BEG-243/242-555 14.198.00.04 BEG-262/261-460 205 V 480 V Half-wave BEG-243/242-555 14.198.00.04 BEG-262/261-555* 215 V 500 V Half-wave BEG-243/242-555 14.198.00.04 BEG-262/261-555* 225 V 555 V Half-wave BEG-243/242-555 14.198.00.04 BEG-262/261-555* 250 V * Spark suppressor without capacitor. For optimum interference suppression, we recommend the use of spark suppressor 14.198.00.04. Max. rated coil voltage: 250 V Standard coil rated voltages: 24, 96, 103, 170, 180, 190, 205 V
32I33 INTORQ I BFK458 spring-applied brake Model overview BFK458 spring-applied brake INTORQ BFK458-òòò Size ò 06 ò 08 ò 10 ò 12 ò 14 ò 16 ò 18 ò 20 ò 25 Design ò E (with torque adjustment ring) ò N (without torque adjustment ring) Voltage ò 24 V ò 96 V ò 103 V ò 170 V ò 180 V ò 190 V ò 205 V Braking torque 1.1 443 lb-ft (see torque graduations) Cable length ò Standard (from 4 inches 40 inches in 4 inches steps, from 40 inches 100 inches in 10 inches steps) Armature plate ò Standard ò Hard chrome-plated (size 06 and above) ò Noise-reduced ò With pole shim/brass film (O-ring design) Microswitch ò Switching function monitoring (size 12 and above) ò Wear monitoring (size 12 and above) ò Hand release monitoring, direction of release away from motor (sizes 06-25) ò Hand release monitoring, direction of release towards motor (sizes 06-10) Terminal box ò Mounted (size 12 and above)
Temperature resistance -40 F ò With hard chrome-plated friction surfaces (armature plate and flange are essential) ò With temperature-resistant fixing screws Rotor ò Aluminium ò Noise-reduced (rotor with sleeve) Low rate of wear ò Aluminium ò Noise-reduced (rotor with sleeve) Hub For bore diameter, see Dimensions Fixing screw set ò For mounting onto the flange ò For mounting onto the motor/friction plate ò For flange with through hole (up to and including size 16) ò For connection flange/double brake Terminal box ò As mounting kit Flange ò Friction plate (up to and including size 16) ò Flange ò Tacho flange ò Connecting flange double brake Sealing ò Seal ò Shaft sealing ring (shaft diameter on request) ò Cap ò Brake cover Electrical accessories Bridge rectifier ò 4-pole without snap-in stud ò 4-pole with snap-in stud ò 6-pole vertical, integrated spark suppressor ò 6-pole horizontal, integrated spark suppressor Half-wave rectifier ò 4-pole without snap-in stud ò 4-pole with snap-in stud ò 6-pole vertical, integrated spark suppressor ò 6-pole horizontal, integrated spark suppressor Spark suppressor ò Yes
34I35 INTORQ I BFK458 spring-applied brake Example applications INTORQ brake systems have been key players in the growth market of wind energy from the very beginning Whenever and wherever cranes move, INTORQ brakes ensure secure braking and precise stops